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microondes

Microondes, or microwaves, refer to a region of the electromagnetic spectrum with frequencies roughly from 1 gigahertz to 300 gigahertz, corresponding to wavelengths from about 30 centimeters to 1 millimeter. They are non-ionizing radiation and can heat materials containing polar molecules, a principle exploited in microwave heating and cooking as well as in industrial processing.

Properties of microwaves vary with frequency and material. Metals strongly reflect microwaves, while dielectric materials may

Technology and devices: Microwave energy is produced by devices such as magnetrons, klystrons, traveling-wave tubes, and

Applications: In cooking, microwave ovens heat food by dielectric heating. In communications, microwaves enable line-of-sight links

Safety: Microwave radiation is non-ionizing but can cause heating and tissue damage with intense exposure. Regulations

History: The practical use of microwaves developed in the 1930s–1940s, with the cavity magnetron playing a crucial

absorb,
transmit,
or
partially
reflect
them
depending
on
their
properties.
Microwaves
interact
with
matter
primarily
through
dielectric
heating,
causing
polar
molecules
like
water
to
rotate
and
generate
heat.
Penetration
depth
depends
on
frequency
and
the
material,
influencing
applications
in
cooking,
imaging,
and
communications.
solid-state
sources,
and
is
guided
by
waveguides
or
coaxial
lines.
The
2.45
gigahertz
frequency
is
standard
for
domestic
microwave
ovens,
while
higher-frequency
bands
are
used
for
radar,
satellite
links,
and
various
wireless
communications,
including
millimeter-wave
technologies
in
some
5G
networks.
for
satellite
communication,
terrestrial
backhaul,
and
certain
wireless
networks.
In
science
and
industry,
microwaves
are
used
for
radar,
remote
sensing,
spectroscopy,
and
dielectric
heating
of
materials.
set
exposure
limits,
and
devices
employ
shielding
and
interlocks
to
minimize
leakage.
role
in
radar
and
later
in
communications
and
cooking
technologies.